物理化学学报 >> 2012, Vol. 28 >> Issue (05): 1012-1020.doi: 10.3866/PKU.WHXB201203052

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CeO2基固溶体氧缺位拉曼光谱表征的研究进展

李岚, 胡庚申, 鲁继青, 罗孟飞   

  1. 浙江师范大学物理化学研究所, 先进催化材料教育部重点实验室, 浙江金华 321004
  • 收稿日期:2011-11-18 修回日期:2012-02-08 发布日期:2012-04-26
  • 通讯作者: 罗孟飞 E-mail:mengfeiluo@zjnu.cn
  • 基金资助:

    国家自然科学基金(20703039, 21173195)资助项目

Review of Oxygen Vacancies in CeO2-doped Solid Solutions as Characterized by Raman Spectroscopy

LI Lan, HU Geng-Shen, LU Ji-Qing, LUO Meng-Fei   

  1. Key Laboratory of the Ministry of Education for Advanced Catalysis Materials, Institute of Physical Chemistry, Zhejiang Normal University, Jinhua 321004, Zhejiang Province, P. R. China
  • Received:2011-11-18 Revised:2012-02-08 Published:2012-04-26
  • Contact: LUO Meng-Fei E-mail:mengfeiluo@zjnu.cn
  • Supported by:

    The project was supported by the National Natural Science Foundation of China (20703039, 21173195).

摘要: 总结了拉曼光谱表征CeO2基固溶体中氧缺位的研究成果, 评述了氧缺位的生成和影响氧缺位浓度观察值的因素, 并提出了亟待解决的问题. CeO2基固溶体的拉曼谱图中出现三个重要的特征拉曼峰(465、560、600 cm-1), 一般分别归属于CeO2F2g振动模式、氧缺位和MO8型缺陷物种. 研究发现氧缺位的产生与掺杂金属离子价态有关, 而MO8型缺陷物种的产生与掺杂金属离子半径有关. CeO2基固溶体中氧缺位浓度观察值(AD/AF2g)与样品吸光度和表面富集有关. 原位拉曼光谱研究表明: 气氛及温度影响CeO2基固溶体的吸光度变化, 从而影响拉曼光谱采样深度, 导致氧缺位浓度观察值的变化.

关键词: 拉曼光谱, 氧缺位, CeO2基固溶体, 吸光度

Abstract: This review summarizes the current status of the evolution and observation of oxygen vacancies in CeO2-doped solid solutions as characterized by Raman spectroscopy. Three Raman peaks at 465, 560, and 600 cm-1 are ascribed to the F2g symmetrical stretching vibration mode of CeO2 in a fluorite structure, oxygen vacancies, and a MO8-type complex, respectively. The presence of oxygen vacancies was related to the ionic valence states of the dopant, while the MO8-type complex was associated with the ionic radii of the dopant. The oxygen vacancy concentration correlated with the sample absorbance and the surface enrichment of oxygen vacancies. The in situ Raman spectroscopic investigations show that the atmospheric composition and temperature had a large influence on the absorbance of the samples, which in turn alters the detection depth of the Raman laser and the observed oxygen vacancy concentration.

Key words: Raman spectroscopy, Oxygen vacancy, CeO2-based solid solution, Absorbance